// HelloClient.cpp : A simple xmlrpc client. Usage: HelloClient serverHost serverPort
// Link against xmlrpc lib and whatever socket libs your system needs (ws2_32.lib
// on windows)
#include "XmlRpc.h"
#include <iostream>
using namespace XmlRpc;

int main(int argc, char* argv[])
{
  if (argc != 3) {
    std::cerr << "Usage: HelloClient serverHost serverPort\n";
    return -1;
  }
  int port = atoi(argv[2]);
  //XmlRpc::setVerbosity(5);

  // Use introspection API to look up the supported methods
  XmlRpcClient c(argv[1], port);
  XmlRpcValue noArgs, result;
  if (c.execute("system.listMethods", noArgs, result))
    std::cout << "\nMethods:\n " << result << "\n\n";
  else
    std::cout << "Error calling 'listMethods'\n\n";


////  // Use introspection API to get the help string for the Hello method
//  XmlRpcValue oneArg;
//  oneArg[0] = "exec";
//  if (c.execute("system.methodSignature", oneArg, result))
//    std::cout << "Help for 'Hello' method: " << result << "\n\n";
//  else
//    std::cout << "Error calling 'methodHelp'\n\n";

  // Add up an array of numbers
  XmlRpcValue numbers;
  numbers[0] = "print 1";
  numbers[1] = "";
  if (c.execute("run_code", numbers, result))
  {
    std::cout << result.size();
    std::cout << "run_code result = " << "return code: "<<result[0]<<"\n stdout:" << result[1]<<"\n stderr:" << result[2]<< "\n\n";
  }
  else
  {
    std::cout << "Error calling 'run_code'\n\n";
    exit(1);
  }
  while(int(result[0])>0)
      if(c.execute("cont", numbers, result))
      {
        std::cout << result.size();
        std::cout << "cont result = " << int(result[0]) << result[1] << result[2] << "\n\n";
      }
      else
        std::cout << "Error calling 'cont'\n\n";

  if (c.execute("end", noArgs, result))
    std::cout << "end result = " << result<< "\n\n";
  else
    std::cout << "Error calling 'end'\n\n";

//
//
//  // Use introspection API to get the help string for the Hello method
//  XmlRpcValue oneArg;
//  oneArg[0] = "Hello";
//  if (c.execute("system.methodHelp", oneArg, result))
//    std::cout << "Help for 'Hello' method: " << result << "\n\n";
//  else
//    std::cout << "Error calling 'methodHelp'\n\n";
//
//  // Call the Hello method
//  if (c.execute("Hello", noArgs, result))
//    std::cout << result << "\n\n";
//  else
//    std::cout << "Error calling 'Hello'\n\n";
//
//  // Call the HelloName method
//  oneArg[0] = "Chris";
//  if (c.execute("HelloName", oneArg, result))
//    std::cout << result << "\n\n";
//  else
//    std::cout << "Error calling 'HelloName'\n\n";
//
//  // Add up an array of numbers
//  XmlRpcValue numbers;
//  numbers[0] = 33.33;
//  numbers[1] = 112.57;
//  numbers[2] = 76.1;
//  std::cout << "numbers.size() is " << numbers.size() << std::endl;
//  if (c.execute("Sum", numbers, result))
//    std::cout << "Sum = " << double(result) << "\n\n";
//  else
//    std::cout << "Error calling 'Sum'\n\n";
//
//  // Test the "no such method" fault
//  if (c.execute("NoSuchMethod", numbers, result))
//    std::cout << "NoSuchMethod call: fault: " << c.isFault() << ", result = " << result << std::endl;
//  else
//    std::cout << "Error calling 'Sum'\n";
//
//  // Test the multicall method. It accepts one arg, an array of structs
//  XmlRpcValue multicall;
//  multicall[0][0]["methodName"] = "Sum";
//  multicall[0][0]["params"][0] = 5.0;
//  multicall[0][0]["params"][1] = 9.0;
//
//  multicall[0][1]["methodName"] = "NoSuchMethod";
//  multicall[0][1]["params"][0] = "";
//
//  multicall[0][2]["methodName"] = "Sum";
//  // Missing params
//
//  multicall[0][3]["methodName"] = "Sum";
//  multicall[0][3]["params"][0] = 10.5;
//  multicall[0][3]["params"][1] = 12.5;
//
//  if (c.execute("system.multicall", multicall, result))
//    std::cout << "\nmulticall  result = " << result << std::endl;
//  else
//    std::cout << "\nError calling 'system.multicall'\n";

  return 0;
}
